Photographic camera system having a pseudo focal length mode

ABSTRACT

A photographic camera system including a mode setting device for selectively setting the system to a real focal length photographing mode for printing an ordinary photographic zone and a pseudo focal length photographing mode for printing a zone narrower than the ordinary photographic zone, a recording device for recording on a film information corresponding to a set one of the photographing modes, a data imprinting device for imprinting data such as date at one of different positions on a photographing portion of the film and a selector device for selecting the one of the different positions in accordance with the set one of the photographic modes.

This application is a division of application Ser. No. 293,082, now U.S.Pat. No. 4,926,203, filed Jan. 3, 1989, which is a division ofapplication Ser. No. 924,425, filed Oct. 29, 1986, now U.S. Pat. No.4,860,039.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a photographic camera system, and moreparticularly to a photographic camera system for enabling pseudotelephoto and pseudo panoramic prints to be obtained from normalexposures by coding an exposure to identify a selected type print.

2. Description of the Prior Art

Conventionally, for example, Japanese Patent Laid-Open Publication No.26721/1979, U.S. Pat. No. 4,583,831 and U.S. Pat. No. 3,490,844 haveproposed a photographic camera system constituted by a camera which isprovided with an operating member capable of designating, in each frameof a film, a printing zone to be printed, at the time of photographingan object, in the vicinity of the image plane of the film a dataindicative of the printing zone and a printer which reads the data foreach frame from the film photographed by the camera so as to print thedesignated printing zone on the basis of the data. In photographiccamera systems of the above described type, in the case where theprinting zone is so designated at the time of photographing an object asto be narrower than an ordinary printing zone and a print is made byenlarging size of the print to that of an ordinary print at the time ofprinting the film, the zone narrower than that of the ordinary print isenlarged in the print and thus, the print is equivalent to a printphotographed by an objective lens having a focal length longer than thatof the objective lens of the camera. Therefore, an effect substantiallyequivalent to an effect gained upon change of the focal length of theobjective lens can be advantageously achieved.

Meanwhile, recently, cameras provided with a data imprinting device forimprinting at an end portion in the frame, data such as dates ofphotographing objects are widely commercially available. Then, if thedata imprinting device is provided in the cameras of the above describedtype, such a phenomenon may undesirably take place that in the casewhere a printing zone narrower than an ordinary printing zone has beendesignated at the time of photographing objects, data imprinted on thefilm are not printed on the printing paper.

The above described photographic camera systems have such a drawbackthat since the operating member for designating the printing zone and animprinting means for imprinting, in accordance with operational statesof the operating member, on the film, data indicative of the printingzone are required to be provided in the camera body, production cost ofthe camera body is increased.

Furthermore, in the cameras for use in the above described photographiccamera systems, when a light measuring angle of an optical system of alight measuring device for measuring, for exposure control, brightnessof the object is set at an angle of view corresponding to the ordinaryprinting zone, such a phenomenon may occur that in the case where theprinting zone narrower than the ordinary printing zone is designated,even a zone which is not reproduced in the print is subjected to lightmeasurement for exposure control, thereby resulting in improper exposureof the film. On the contrary, when the light measuring angle is set anangle of view corresponding to the designated printing zone narrowerthan the ordinary printing zone, spot light measurement and averagelight measurement are performed in the case where the ordinary printingzone and the printing zone narrower than the ordinary printing zone aredesignated, respectively. Hence, light measuring methods vary accordingto area of the designated printing zone. For example, if an object ofextremely high brightness exists between an angle of view correspondingto a case in which the ordinary printing zone is designated (referred toas a "real focal length photographing mode") and an angle of viewcorresponding to a case in which the printing zone narrower than theordinary printing zone is designated (referred to as a "pseudo focallength photographing mode"), exposure control is performed, in the casewhere the light measuring angle of average light measurement is set atthe angle of view corresponding to the real focal length photographingmode, on the basis of light measurement of even the object of highbrightness which is not printed in the pseudo focal length photographingmode. As a result, the film is underexposed in the pseudo focal lengthphotographing mode. On the other hand, in the case where the lightmeasuring angle of average light measurement is set at an angle of viewcorresponding to the pseudo focal length photographing mode, the objectof high brightness is printed but is not subjected to light measurementin the real focal length photographing mode, thereby resulting inoverexposure of the film in the real focal length photographing mode.

Moreover, in the cameras for use in the above described photographiccamera systems, it is so arranged that not only the operating member isdisplaced but size of the frame of field of view in the viewfindervaries upon operation of the operating member such that the printingportion can be confirmed through the viewfinder. However, in sucharrangement, it is impossible to determine from external appearance ofthe camera whether the camera is set to the real focal lengthphotographing mode or the pseudo focal length photographing mode. Thus,there is such a possibility that a user of the camera is incapable ofdetermining from external appearance of the camera whether the camera isset to the real focal length photographing mode or the pseudo focallength photographing mode with the result that the user photographs anobject in one mode other than that expected by the user.

Meanwhile, in the cameras for use in the photographic camera systems, inthe case where the pseudo focal length photographing mode for printingthe narrower zone has been selected, incoming light is incident uponeven a zone other than the printing zone. Such incoming light isessentially unnecessary and rather, may deteriorate image quality due toits reflection in the light shielding barrel or lens barrel.

SUMMARY OF THE INVENTION

Accordingly an essential object of the present invention is to provide acamera which is capable of recording data such as date in a printingzone in both a real focal length photographing mode and a pseudo focallength photographing mode.

Another object of the present invention is to provide a camera accessorywhich enables changeover of a camera between the real focal lengthphotographing mode and the pseudo focal length photographing modewithout incurring rise of production cost of the camera body.

Still another object of the present invention is to provide a camera inwhich proper exposure is performed at all times in both the real focallength photographing mode and the pseudo focal length photographingmode.

A further object of the present invention is to provide a camera inwhich whether the camera is set to the real focal length photographingmode or the pseudo focal length photographing mode can be determinedeasily.

A still further object of the present invention is to provide a camerawhich is capable of preventing deterioration of image quality due tolight incident upon a zone outside a zone to be printed in the pseudofocal length photographing mode.

In order to accomplish these objects of the present invention, aphotographic camera system according to one preferred embodiment of thepresent invention comprises: a mode setting means for selectivelysetting said photographic camera system to a real focal lengthphotographing mode for printing an ordinary photographic zone and apseudo focal length photographing mode for printing a zone narrower thanthe ordinary photographic zone; a recording means for recording on afilm information corresponding to a set one of the real focal lengthphotographing mode and the pseudo focal length photographing mode; adata imprinting means for selectively imprinting data such as date atone of a plurality of different positions on a photographing portion ofthe film; and a selector means for selecting said one of a plurality ofthe different positions in accordance with the set one of the real focallength photographing mode and the pseudo focal length photographingmode.

BRIEF DESCRIPTION OF THE DRAWINGS

These objects and features of the present invention will become apparentfrom the following description taken in conjunction with the preferredembodiments thereof with reference to the accompanying drawings, inwhich:

FIG 1 is a perspective view of a camera provided with a data imprintingdevice, according to a first embodiment of the present invention;

FIG. 2 is a top plan view of the camera of FIG. 1;

FIG. 3 is a side elevational view of the camera of FIG. 1;

FIGS. 4 and 5 are views indicative of a light measuring optical systememployed in the camera of FIG. 1 in a real focal length photographingmode and a pseudo focal length photographing mode, respectively;

FIG. 6 is a front elevational view of an inside of a back cover employedin the camera of FIG. 1;

FIG. 7 is a front elevational view of an outside of the back cover ofFIG. 6;

FIG. 8 is a rear elavational view of an inside of the camera of FIG. 1;

FIG. 9 is a front elevational view of a liquid crystal display portion,of the camera of FIG. 1;

FIG. 10 is a front elevational view of a film photographed by the cameraof FIG. 1;

FIG. 11 is an electrical circuit diagram of the camera of FIG. 1;

FIGS. 12A to 12E are flow charts showing a processing sequence ofsignals of exposure control and photographing in the camera of FIG. 1;

FIG. 13 is a flow chart showing a processing sequence of film rewindingoperation in the camera of FIG. 1;

FIG. 14 is a flow chart showing a processing sequence of flashphotography display in the camera of FIG. 1;

FIGS. 15A to 15C are flow charts showing a processing sequence ofdisplay in the camera of FIG. 1;

FIGS. 16A and 16B are flow charts showing a processing sequence ofsignals of the back cover of FIG. 6;

FIG. 17 is a flow chart showing a processing sequence of interruption inthe camera of FIG. 1;

FIG. 18 is a flow chart showing a processing sequence of imprinting ofthe number of prints in the camera of FIG. 1;

FIG. 19 is a time chart explanatory of time possible to imprint thenumber of prints in the camera of FIG. 1;

FIG. 20 is a schematic view of a film printer for the camera of thepresent invention;

FIG. 21 is a schematic view of a control unit of the film printer ofFIG. 20;

FIGS. 22A and 22B are flow charts showing a processing sequence ofcontrol in the printer of FIG. 20;

FIG. 23 is a perspective view of a camera according to a secondembodiment of the present invention;

FIG. 24 is a front elevational view of the camera of FIG. 23 in the realfocal length photographing mode;

FIG. 25 is a top plan view of the camera of FIG. 24;

FIG. 26 is a perspective view of the camera of FIG. 23 in the pseudofocal length photographing mode;

FIGS. 27A to 27C are views showing transitional states of a front faceand a side face of a lens barrel of the camera of FIG. 23 during itschangeover from the real focal length photographing mode to the pseudofocal length photographing mode, respectively;

FIG. 28 is a longitudinal sectional view of the lens barrel of FIG. 27;and

FIG. 29 is a view similar to FIG. 28, particularly showing a thirdembodiment of the present invention.

Before the description of the present invention proceeds, it is to benoted that like parts are designated by like reference numeralsthroughout several views of the accompanying drawings.

DETAILED DESCRIPTION OF THE INVENTION

Initially, construction of a camera K1 according to a first embodimentof the present invention will be described with reference to FIGS. 1 to10, hereinbelow. As shown in FIGS. 1 to 3, the camera K1 includes acamera body 1, an objective lens 2, a shutter release button 3, atrimming lever 4, a liquid crystal display panel 5, a flash lightemitting panel 6, a viewfinder window 7, distance measuring windows 8and 9 and a light receiving window 10 of an automatic exposure controlmeans (referred to as an "AE", hereinbelow).

FIG. 2 shows changeover of the camera K1 between wide angle (standard)photography (indicated by a mark "Wide" in FIG. 1) and telephotography(indicated by a mark "Tele" in FIG. 1) through trimming upon operationof the trimming lever 4. When the trimming lever 4 is displaced towardsthe mark "Wide", i.e. rightwards in FIG. 2, a cam plate 4a is alsodisplaced rightwards in FIG. 2, so that a retainer plate 10 for achangeover optical system is displaced upwardly in FIG. 2 through a pin10a engaged with a groove 9b of the cam plate 4a and thus, the camera K1is changed over to the wide angle (standard) position shown by thebroken lines in FIG. 2. In FIG. 2, reference numerals 14a and 14b denoteprojection lenses for an automatic focus detecting means (referred to asan "AF", hereinbelow) and reference numerals 15a and 15b denote lightreceiving lenses for the AE and reference numerals 16a and 16b denotelight receiving lenses for the AF. The projection lens 14a, the lightreceiving lenses 15a and 16a are fixed in position, while the projectionlens 14b and the light receiving lenses 15b and 16b are displacedforwardly and rearwardly in the camera K1 by the retainer plate 10. Inthe above described arrangement of the camera K1, when the trimminglever 4 is changed over to the mark "Tele", a range illuminated byincident light for the AF is decreased and a combined focal length ofthe light receiving lenses 16a and 16b for the AF is increased such thataccuracy of distance measurement is raised. At the same time, a combinedfocal length of the light receiving lenses 15a and 15b for the AE isalso increased such that a light measuring range is decreased inconformity with a trimming zone. When the trimming lever 4 is changedover to the mark "Tele", a viewfinder lens 20 is displaced downwardly inFIG. 2 and a viewfinder lens 21 is displaced upwardly in FIG. 2, so thata magnification of the viewfinder is increased and a zone to be printedupon the pseudo focal length photographing mode is indicated by aviewfinder frame.

Meanwhile, reference numeral 22 denotes a frame reflecting mirror lens,reference numeral 23 denotes an eyepiece, reference numeral 17 denotes aphoto detector for the AE, reference numeral 18 denotes a light emittingelement for the AF and reference numeral 19 denotes a photo detector forthe AF. The flash light emitting device is constituted by a reflectingbevel 11, a xenon light emitting tube 12 and a movable panel 13 andfunctions as a zoom strobe whose angle of illumination changes uponoperation of the trimming lever 4.

Referring to FIGS. 4 and 5, there is shown a light measuring opticalsystem employed in the camera K1. The light measuring optical systemincludes a light measuring photo detector 17, a lens 15a fixed to thecamera body, an aperture S disposed forwardly of the lens 15a and a lens15b. The light measuring photo detector 17 is formed by a silicon photodiode and its package has a side face r acting as a lens face having apositive refracting power. FIG. 4 shows positions of the lenses 15a and15b in a real focal length photographing mode for designating anordinary printing zone, while FIG. 5 shows positions of the lenses 15aand 15b in a pseudo focal length photographing mode for designating aprinting zone narrower than the ordinary printing zone, respectively. Aswill been seen from FIGS. 4 and 5, upon changeover of the camera K1 fromthe real focal length photographing mode to the pseudo focal lengthphotographing mode, only the lens 15b is displaced forwardly in thedirection of the optical axis of the camera K1 such that a distancebetween the lenses 15a and 15b is increased. Therefore, assuming that alight measuring angle in the real focal length photographing mode ofFIG. 4 is represented by θa and a light measuring angle in the pseudofocal length photographing mode of FIG. 5 is represented by θb, θa>θb.

More specifically, initially supposing that reference character ftdenotes a combined focal length of the light measuring optical system byneglecting the refracting power of the lens face r of the package of thelight measuring photo detector 17 and reference characters f1 and f2denote focal lengths of the lenses 15a and 15b, respectively, thecombined focal length ft is given by the following equation (1):

    1/ft=(1/f1)+(1/F2)-(e/f1.f2)                               (1)

where reference character e denotes a distance between the lenses 15aand 15b. As will be understood from the equation (1), value of the rightside of the equation (1) decreases when the distance e is increased onthe assumption that both of the focal lengths f1 and f2 are positive.Hence, the combined focal length ft of the light measuring opticalsystem increases. When the combined focal length ft of the lightmeasuring optical system is increased, a light measuring angle of thelight measuring optical system decreases and thus, it becomes possibleto decrease the light measuring angle of the light measuring opticalsystem by increasing the distance e between the lenses 15a and 15b. Tothis end, in the camera K1, the lens 15b disposed more adjacent to anobject to be photographed than the lens 15a is displaced in thedirection of the optical axis so as to change the distance e between thelenses 15a and 15b such that the light measuring angle of the lightmeasuring optical system is changed. Namely, in the camera K1, thedistance between the lenses 15a and 15b is decreased in the real focallength photographing mode as shown in FIG. 4 such that the lightmeasuring angle of the light measuring optical system is set at therelatively wide angle θa, while the distance between the lenses 15a and15b is increased in the pseudo focal length photographing mode as shownin FIG. 5 such that the light measuring angle of the light measuringoptical system is set at the narrow angle θb corresponding to the narrowprinting zone printed in the pseudo focal length photographing mode. Thelight measuring photo detector 17 is arranged to perform average lightmeasurement of light incident from within the light measuring angle.

Meanwhile, FIG. 6 shows an inside of a back cover 43 of the camera K1.The back cover 43 includes terminals 37 for receiving signals from thecamera body, a print number imprinting portion 36 for imprinting thenumber of prints on the film, a trimming data imprinting portion 38 forimprinting trimming data on the film and data imprinting portions 39 and40 for imprinting on the film data such as dates. The terminals 37include four terminals IP (imprint), TRD (trimming data), DIS (disable)and GND (ground) disposed at positions confronting terminals provided atthe camera body. The print number imprinting portion 36 is provided soas to imprint, as a four-bit signal, a preset number of prints on thefilm upon depression cf a push-button switch 44 to be described laterand are constituted by four light emitting diodes. The trimming dataimprinting portion 38 is constituted by a single light emitting diodeand is arranged to imprint a trimming mark 38a on the film in responseto a trimming signal produced at the time when the trimming lever 4 isset to the mark "Tele". The data imprinting portion 39 is provided forimprinting data on the film when the trimming lever 4 is set to the mark"Wide", i.e. when the real focal length photographing mode is set. Onthe other hand, the data imprinting portion 40 is provided forimprinting data on the film when the trimming lever 4 is set to the mark"Tele", i.e. when the pseudo focal length photographing mode is set. Inconsideration of the fact that data of the data imprinting portion 40are enlarged at a large magnification, size of the data of the dataimprinting portion 40 is made smaller than that of the data imprintingportion 39.

FIG. 7 shows an outside of the back cover 43. The back cover 43 includesthe push-button switch 44 for imprinting the number of prints on thefilm, a push-button switch 45 for setting the number of prints and adisplay portion 47 for displaying the number of prints. By depressingthe push-button switch 45 prior to photographing an object, prints to bemade are set at a required number. Each time the push-button switch 45is depressed once, numerals ranging from 0 to 8 are sequentially set inan increasing order so as to be displayed by the display portion 47. Thenumeral 0 appears again subsequently to the numeral 8. Then, bydepressing the push-button switch 44, the set number of the prints isimprinted on the film as the four-bit signal. A mark 49 for indicatingthat the number of the prints has been imprinted on the film is providedat a portion of the display portion 47 and is displayed upon depressionof the push-button switch 44. When a date imprinting mode switch 50 isturned on, dates are allowed to be imprinted on the film. Meanwhile,when the date imprinting mode switch 50 is turned off, dates are notallowed to be imprinted on the film. Reference numeral 46 denotes a datedisplay portion for indicating a date to be imprinted.

FIG. 8 shows an inside of the camera K1 as viewed from the back cover 43by opening the back cover 43. In FIG. 8, reference numeral 29 denotes aposition of the back cover 43. A trimming signal brush 24 and a trimmingsignal substrate 25, which are provided inside the trimming lever 4,constitute a slide switch. This slide switch is turned on when thetrimming lever 4 is set to the mark "Tele" so as to transmit to aprocessor a signal indicative of whether the trimming lever 4 is set tothe mark "Wide" or the mark "Tele". Reference numeral 26 denotes aphotographing frame of an ordinary size of 24×36 mm provided in thecamera body. In order to enable the user to confirm the printing zone ona negative film after photographing when an object is photographed bysetting the trimming lever 4 to the mark "Tele", around thephotographing frame 26, four recesses A are formed such that two of therecesses A is disposed at a right side of the photographing frame 26,with the remaining two of the recesses A being disposed on a bottom sideof the frame 26. A zone designated by reference numeral 35 represents aprinting zone when the pseudo focal length photographing mode is set. Aterminal 28 is provided for delivering signals from the camera body tothe back cover 43 and is constituted by four terminals IP (imprint), TRD(trimming data), DIS (disable) and GND (ground). Meanwhile, referencenumeral 30 denotes a film pressing plate, reference numeral 31 denotes aflash switch lever, reference numeral 32 denotes a film cartridge andreference numeral 33 denotes a film take-up spool.

FIG. 9 shows the liquid crystal display panel 5 provided on the upperface of the camera body. Firstly, on the liquid crystal display panel 5,the number CAM of photographable frames of the film is displayed byreading a CAS code on a DX film cartridge. When the CAS code is notpresent, display of the number CAM of photographable frames of the filmis cancelled. Secondly, on the liquid crystal display panel 5, a filmspeed ISO indicative of a film speed based on ISO (InternationalOrganization for Standardization) is displayed by reading the CAS codeon the DX film cartridge. In the case where the CAS code is not providedon the film cartridge, "ISO 100" is displayed. Thirdly, an indicationthat the film cartridge is loaded into the camera body is displayed.When the film cartridge is loaded into the camera body and then, theback cover 43 is closed, a mark "PAM" is displayed. Fourthly, displaysof states of the film in the camera body include a display FSM that thefilm is being preliminarily fed, a display WM that the film is beingwound and a display RWM that the film is being rewound are displayed.Fifthly, a natural light photographing mode AM and a flashlightphotographing mode FM are displayed. Sixthly, the number FCD of thephotographed frames of the film is displayed. Seventhly, when the filmis underexposed due to dark field to be photographed, a warning LLM on alow shutter speed limit for underexposure and an indication CHM ofcompletion of electric charging of the flash are displayed by blinks oflight emitting diodes. These indications are displayed on the basis ofsignals processed in a microprocessor to be described later with theexception that the indication CHM of completion of electric charging ofthe flash is displayed on the basis of signals in a flash circuit.

FIG. 10 shows a film photographed by the camera K1. In FIG. 10,reference numeral 35 denotes a zone of an image plane to be printed whenthe pseudo focal length photographing mode is set. The trimming mark 38ais imprinted on the film by the trimming data imprinting portion 38 asdescribed earlier with reference to FIG. 6. A print number code 36aindicative of the number of prints to be made is imprinted on the filmby the print number imprinting portion 36. Data 39a such as dates areimprinted on the film by the data imprinting portion 39 when the realfocal length photographing mode is set. Meanwhile, data 40a such asdates are imprinted on the film by the data imprinting portion 40 whenthe pseudo focal length photographing mode is set.

Then, an electric circuit of the camera K1 will be described withreference to FIG. 11. As indicated at the bottom portion of FIG. 11, theleft and right side portions of FIG. 11 are, respectively, incorporatedinto the camera body and the back cover 43. Initially, a circuit portionin the camera body is described. Electric power supplied from a batteryBA1 is applied to a first processor CPU1 and other components through avoltage stabilizing circuit constituted by a diode D1 and a capacitor C1and is fed to the automatic exposure control circuit AE, the automaticfocus detecting circuit AF, a digital-analog converter DA, a flash timerFT by way of a power source transistor BT actuated by signals from thefirst processor CPU1. Switches for transmitting operational states ofthe camera K1 to the first processor CPU1 include a light measuringswitch S1 to be closed upon depression of the shutter release button 3to the first stage, a release switch S2 to be closed upon depression ofthe shutter release button 3 to the second stage, a winding switch WS tobe closed in response to detection of winding of one frame of the film,a detection switch FIS for detecting loading of the film into the camerabody, a trimming switch TRS to be closed at the time when the trimminglever 4 is set to the mark "Tele", namely at the time when the pseudofocal length photographing mode is set, a switch FLS to be closed at thetime of use of the flash device, a detection switch BCS for detectingopening and closing of the back cover 43, a switch CAF for reading fromthe CAS code on the film cartridge a code of the number ofphotographable frames of the film and a switch CAI for reading a filmspeed code from the CAS code. The detection switch FIS is closed whenthe film is not loaded into the camera body. Meanwhile, the detectionswitch BCS is turned on and off when the back cover 43 is closed andopened, respectively.

Output ports of these switches are connected to an interruption terminalIT0 input ports P0, P1, P2, P3, P40, P4, P5, P6 and P19, respectively.Meanwhile, when the switch FLS and the detection switch BCS are turnedoff from the on state and are turned on from the off state, the switchFLS and the detection switch BCS deliver positive edge signals to inputports IT1 and IT2 through pulse generators PG2 and PG1 for interruptingthe first processor CPU1, respectively so as to reset data given to thefirst processor CPU1. A film winding signal and a film rewinding signalare transmitted from output ports P7 and P8 of the first processor CPU1so as to control a driving motor MO. When a start signal is transmittedfrom an output port P9 of the first processor CPU1 to a flash circuitFL, boosting and electric charging of the flash circuit FL are started.Upon completion of electric charging of the flash circuit FL, a signalCH is issued to an input port P10 of the first processor CPU1. The flashcircuit FL is turned on in response to a flash start signal FSTA fromthe flash timer FT. A release control circuit RL is actuated by apositive edge signal from an output port P11 of the first processor CPU1so as to release the shutter such that the automatic focus detectingcircuit AF is released from locking. A signal for actuating the powersource transistor BT is supplied from an output port P12 of the firstprocessor CPU1.

In an exposure control circuit AE, when the power source is turned on,light measurement of field to be photographed is performed. When asignal MM for commanding storage of a light measurement value isdelivered from an output port P13 of the first processor CPU1, anexposure value EV1 is fixed (hereinbelow, referred to as "AE lock"). Theexposure value EV1 is determined in accordance with a light measurementvalue and the film speed obtained by converting the data of switch CAIto an analog signal by the digital-analog converter DA through a signalline ISA. Upon completion of focus detection by an automatic focusdetecting circuit AF and completion of focus adjustment by the automaticfocus detecting mechanism, the shutter is released so as to startopening. At this moment, a count switch for actuating a counter forcounting pulses outputted from an encoder in response to displacement ofthe shutter is turned on. A count value EV2 of the counter, whichrepresents amount of exposure after start of opening of the shutter, andthe exposure value EV1 subjected to AE lock are compared with eachother. When the count value EV2 and the exposure value EV1 coincide witheach other, a shutter control magnet EM is turned off so as to close theshutter and, at the same time, a shutter closing signal ECE istransmitted to a port P15 of the first processor CPU1 and the flashtimer FT. When the exposure value EV1 subjected to AE lock is smallerthan a predetermined value, the film is underexposed and thus, alow-speed limit warning signal LL is delivered to a port P14 of thefirst processor CPU1. In this case, when the count value EV2 has reacheda predetermined value, the shutter is forcibly closed even if the countvalue EV2 has not yet reached the exposure value EV1 subjected to AElock.

In the automatic focus detecting circuit AF, when the power source isturned on, distance measurement is started. Thus, the automatic focusdetecting circuit AF stores the distance measurement data and, at thesame time, output the distance measurement data to the flash timer FT.When the automatic focus detecting mechanism is released from lockingupon actuation of the release circuit RL, displacement of the lens isstarted and a travel distance of the lens is measured by using pulses.When the lens is displaced to an in-focus position upon coincidence ofthe travel distance of the lens measured by using pulses with thedistance measurement data stored beforehand, a driving magnet AM isde-energized so as to prevent displacement of the lens such that thelens is stopped. Meanwhile, a signal indicative of real focal lengthphotographing mode or pseudo focal length photographing mode is directlytransmitted from the trimming switch TR to the automatic focus detectingcircuit AF such that distance measurement calculation for decoding ameasured value into a distance zone, which is performed in the automaticfocus detecting circuit AF, is changed.

The digital-analog converter DA converts a film speed signal Sv based onthe CAS code on the film cartridge into an analog signal so as to inputthe analog signal to the exposure control circuit AE. The flash timer FTcalculates a flash starting time data for the flash circuit FL on thebasis of the distance data from the automatic focus detecting circuit AFand the film speed signal Sv.

The flash timer FT transmits a flash starting signal FSTA to the flashcircuit FL when a time period counted upon closing of a count switch CSsimultaneously with start of opening of the shutter has coincided withthe flash starting time data. Thus, when the shutter blades have beenopened to a proper position for obtaining a necessary amount ofexposure, the flash is turned on so as to give a proper amount ofexposure.

When the camera K1 is not set to the flash rode, a "High" signal isoutputted from a port P21 of the first processor CPU1 to the flash timerFT but the flash starting signal FSTA is not transmitted from the flashtimer FT to the flash circuit FL. Meanwhile, when a shutter closingsignal ECE has been transmitted from the exposure control circuit AE tothe flash timer FT, for example, in the case of daylight synchronizedflash photography although the shutter opening time period counted bythe counter does not reach the flash starting time, the flash isforcibly turned on by the shutter closing signal ECE.

A pulse IP having a time interval corresponding to the film speed isdelivered from an output port P16 of the first processor CPU1 upon startof operation of exposure control. A trimming data signal TRD isdelivered from an output port P17 of the first processor CPU1 in thepseudo focal length photographing mode. A signal DIS for forbiddingimprinting of the number of prints on the film is delivered from anoutput port P18 of the first processor CPU1. These three signals aretransmitted to the back cover 43. Meanwhile, various display data aredelivered from an output port P22 of the first processor CPU1 so as tobe displayed by the display circuit DP including the display panel 5.

Then, a circuit portion in the back cover 43 is described. Electricpower supplied from a battery BA2 is applied to a second processor CPU2and other components through a voltage stabilizing circuit constitutedby a diode D2 and a capacitor C2. An output signal of a date imprintingmode switch 50 is applied to an input port P30 of the second processorCPU2. A switch 45 for setting the number of prints outputs an on signaleach time the switch 45 is depressed. The on signal to be inputted to aport P31 of the second processor CPU2 is counted by a counter in thesecond processor CPU2. Reference numeral 44 denotes a switch forimprinting the number of prints on the film and an output signal of theswitch 44 is applied to a port P32 of the second processor CPU2.Furthermore, when both the switch 44 and the switch 45 have been turnedon, the output signals of the switches 44 and 45 are inputted to a portITa of the second processor CPU2 so as to interrupt the second processorCPU2. A light source 38 for imprinting the trimming mark on the film isactuated by a control signal delivered from a port P35 of the secondprocessor CPU2. A light source LG for imprinting the number of prints onthe film is actuated by four-bit signals delivered from ports 36 to 39of the second processor CPU2. A light source LP1 for imprinting data onthe film at the time when the real focal length photographing mode isset is controlled by a signal delivered from a port P40 of the secondprocessor CPU2. Meanwhile, a light source LP2 for imprinting data on thefilm at the time when the pseudo focal length photographing mode is setis controlled by a signal delivered from a port P41 of the secondprocessor CPU2. Reference numeral 47 denotes the display portion fordisplaying the number of prints and reference numeral 46 denotes thedata display portion. Reference numeral 39 denotes a display portion fordisplaying data such as dates imprinted on the film when the real focallength photographing mode is set, while reference numeral 40 denotes adisplay portion for displaying data such as dates imprinted on the filmwhen the pseudo focal length photographing mode is set. Data such asdates are displayed by the display portions 39 and 40 in response to anoutput signal delivered from a port P42 of the second processor CPU2.

Hereinbelow, processing of signals in the first and second processorsCPU1 and CPU2 are described with reference to flow charts of FIGS. 12 to18 and a time chart of FIG. 19. FIGS. 12A to 12E show a processingsequence of signals of exposure control and photographing in the firstprocessor CPU1. Initially, when an interruption signal is inputted tothe interruption terminal IT0 upon turning on of the light measuringswitch S1 at step #1, the power source transistor BT is actuated at step#2 such that electric power is supplied to necessary portions. Then, asignal for stopping boosting of the flash circuit FL is delivered to theflash circuit FL at step #3. This boosting for electric charging of theflash circuit FL is stopped because when electric charging of the flashcircuit FL is started, the automatic exposure control circuit AE, theautomatic focus detecting circuit AF, etc. may not function normally dueto drop of voltage of the power source. If it is found that a flashswitch FLS is in the on state at step #4, the flash photography displaymark FM is displayed on the display panel 5 at step #5 and then, adecision is made as to whether or not electric charging of the flashcircuit FL has been completed at step #6. If it is found that electriccharging of the flash circuit FL has not been completed, the programdoes not proceed to a flow for exposure control by locking release ofthe shutter but a decision is made as to whether or not the lightmeasuring switch S1 is in the off state at step #7. If the lightmeasuring switch S1 is in the off state, the program flow proceeds to aflash photography display routine F-14 of FIG. 14. On the contrary, ifthe light measuring switch S1 is in the on state, the program flow isset in a waiting state until the light measuring switch S1 is turnedoff. Meanwhile, if electric charging of the flash circuit FL has beencompleted at step #6, the flash circuit FL can be turned on and thus, aflash control signal FEN given to the flash timer FT is set at the LOWlevel at step #8. If the flash switch FLS is not in the on state at step#4, the natural light photography display mark AM is displayed on thedisplay panel 5 at step #9 and then, the flash control signal FEN is setat the HIGH level so as to prevent the flash circuit FL from beingturned on.

Then, light measurement is performed. After a predetermined waiting timefor allowing the light measuring circuit to become stable at step #11,AE lock is performed so as to store the light measuring data at step#12. From the light measuring data, a decision is made as to whether ornot the shutter speed becomes low at step #13. If it is found that theshutter speed is low, a decision is made as to whether or not a state inwhich the flash circuit FL can be turned on, i.e. the flash controlsignal FEN is set at the LOW level exists at step #14. If such statedoes not exists, the warning LLM on the low shutter speed limit forunderexposure blinks on the display panel 5 at step #15.

When preparations for photography have been completed as describedabove, a decision is made as to whether or not the release switch S2 isin the on state at step #16. If the release switch S2 is not in the onstate, a decision is made as to whether or not the light measuringswitch S1 is in the on state at step #17. If the light measuring switchS1 is in the on state, a decision is again made as to whether or not therelease switch S2 is in the on state at step #16. If the light measuringswitch S1 is not in the on state, the shutter release button 3 isreleased and thus, the program flow proceeds to the flash photographydisplay routine F-14 of FIG.14. If he release switch S2 is in the onstate, the timer is set at a time period for imprinting data on the filmat step #18, corresponding to the film speed. Then, a decision is madeas to whether or not the trimming switch TRS is in the on state at step#19. If the trimming switch TRS is in the on state, a LOW level trimmingdata TRD is produced at step #21. Meanwhile, when the trimming switchTRS is not in the on state, a HIGH level trimming data TRD is producedat step #20. Subsequently, in order to forbid imprinting and setting ofthe number of prints through operation of the switches on the back lid43 during a time period from start of operation of exposure control tocompletion of winding of the film, a LOW level signal DIS for forbiddingimprinting of the number of prints on the film is produced at step #22.Then, an imprinting timer for setting an imprinting time is started atstep #23 and an imprinting signal IP for imprinting data on the film isset at the LOW level so as to start imprinting of data on the film atstep #24. Thereafter, the release control circuit RL is actuated so asto start control of the lens at step #25. Then, a decision as to whetheror not the imprinting timer has completed its time counting at step #26and a decision as to whether or not exposure of the film has beencompleted in response to an exposure completion signal from theautomatic exposure control portion AE at step #27 are made alternately.If the imprinting timer has completed its time counting, the imprintingsignal IP is set at the HIGH level so as to terminate imprinting of dataon the film at step #28 or step #31. If it is found that the imprintingtimer has completed its time counting and exposure of the film has beencompleted at step #29, the power source transistor BT is turned off atstep #32 and thus, photographing operations have been completed.

Then, the film is wound. A frame winding timer is set at a maximum timeperiod necessary for winding one frame of the film at step #33.Subsequently, the frame winding timer is started at step #34 and windingof the film is started at step #35. The display WM indicating that thefilm is being wound is blinked on the display panel 5 at step #36. Afterwaiting for a predetermined time period at step #37 during which a frameswitch for detecting feed of frames of the film is turned off from theon state, winding of the film is stopped at step #41 if a signalindicative of completion of winding of one frame of the film is producedby the frame switch at step #38 prior to completion of time counting ofthe frame winding timer of step #39. Then, the display WM indicatingthat the film is being wound is turned off at step #42. If it is foundfrom the detection switch FIS for detecting loading of the film into thecamera body that the film is loaded into the camera body at step #43,one is added to a count of a frame counter at step #44. Thereafter, ifit is found that the count of the frame counter is not more than a sumof one and the number CAF of photographable frames of the film at step#45, the signal DIS for forbidding imprinting of the number of prints onthe film is set at the HIGH level so as to be inoperative at step #46and then, the count of the frame counter is displayed on the displaypanel 5 at step #47. On the other hand, if the count of the framecounter becomes greater than a sum of one and the number CAF ofphotographable frames of the film at step #45, the count of the framecounter is displayed on the display panel 5 at step #47 while settingand imprinting of the number of prints are being forbidden and then, adecision is made as to whether or not the light measuring switch S1 isin the off state at step #48. If the light measuring switch S1 is in theoff state, the program flow proceeds to the flash photography displayroutine F-14 of FIG. 14.

Meanwhile, when the frame winding timer has completed its time countingwithout completion of winding of one frame of the film prior to lapse ofthe preset time period of the frame winding timer at step #39, the filmcannot be advanced any more after photographing of the last frame of thefilm. Thus, winding of the film is stopped at step #40 and then, thedisplay WM indicating that the film is being wound is turned off at step#49. Subsequently, the count of the frame counter is advanced by one atstep #50 and then, is displayed on the display panel 5 at step #51.Then, after waiting until the light measuring switch SW1 is turned offat step #52, the program flow proceeds to a rewinding routine F-13 ofFIG. 13.

FIG. 13 shows the rewinding routine. Initially, after waiting for apredetermined time period at step #53, the display RWM indicating thatthe film is being rewound is blinked on the display panel 5 at step #54so as to start rewinding of the film at step #55. After waiting untilthe frame switch is turned off in the case where the frame switch is inthe on state at step #56, a decision is made as to whether or notrewinding of one frame of the film has been completed at step #57. Ifrewinding of one frame of the film has been completed, one is reducedfrom the count of the frame counter at step #59 and then, the count ofthe frame counter is displayed on the display panel 5 at step #60 suchthat the program flow returns to rewinding of the film again. Meanwhile,when rewinding of one frame of the film has not been completed, adecision is made by using the detection switch FIS as to whether or notthe film is present in the camera body at step #61. If the film ispresent in the camera body, the program flow is set in a waiting stateuntil rewinding of one frame of the film is completed. On the contrary,if the film is not present in the camera body at step #61, rewinding ofthe film is stopped at step #62 and interruption through opening andclosing of the back lid 43 is allowed at step #63. Then, after thedisplay RWM indicating that the film is being rewound is turned off atstep #64, a decision is made as to whether or not the detection switchBCS for detecting opening and closing of the back cover 43 is in the onstate. If the detection switch BCS is in the on state, the program flowstops. Meanwhile, if the detection switch BCS is not in the on state,the back cover 43 is opened and thus, the program flow proceeds to adisplay routine F-15 of FIG. 15.

FIG. 14 shows the flash photography display routine. Initially, afterthe power source is turned on at step #101, a decision is made as towhether or not the flash switch FLS is in the on state at step #102. Ifthe flash switch FLS is not in the on state, boosting of the powersource of the flash circuit FL is stopped at step #103 and then, thenatural light photographing mode AM is displayed on the display panel 5at step #104. On the other hand, if the flash switch FLS is in the onstate at step #102, the power source of the flash circuit FL is boostedat step #105 and then, the flashlight photographing mode FM is displayedat step #106. Then, after the warning LLM on the flow shutter speedlimit for underexposure is turned off at step #107, a decision is madeas to whether or not the detection switch BCS for detecting opening andclosing of the back lid is in the on state at step #108. If thedetection switch BCS is in the on state, interruption is allowed at step#109 and then, the program flow stops. If the detection switch BCS isnot in the on state, the program flow proceeds to the display routineF-15 of FIG. 15.

Meanwhile, the routine of FIG. 14 is also a photographing modechangeover routine. Thus, if pulses of the pulse generator PG2 areinputted to the interruption terminal IT1 upon changeover of the flashswitch FLS between the on state and the off state, the routine of FIG.14 is executed from step #100. As described above, a decision :s made asto whether or not the flash switch FLS is in the on state in thisroutine such that the photographing mode of the camera K1 is changedover to the flashlight photographing mode or the natural lightphotographing mode.

FIGS. 15A to 15C show the display routine for displaying film data onthe display panel 5. When pulses outputted from the pulse generator PGlupon opening and closing of the back cover 43 are applied to the inputport IT2, this routine is started. Initially, the signal DIS forforbidding imprinting of the number of prints on the film is set at theLOW level at step #200. Then, a decision is made as to whether or notthe detection switch BCS for detecting opening and closing of the backcover 43 is in the on stare at step #201. If the detection switch BCS isin the on state, namely the back cover 43 is closed, the CAS code isread so as to input the film speed and the number of photographableframes of the film at step #202. Furthermore, a decision is made as towhether or not the CAS code is present at step #203. If the CAS code isnot present, a fixed film speed of ISO 100 is displayed on the displaypanel 5 at steps #204 and #205 and then, display of the number ofphotographable frames of the DX film is cancelled at step #206. On theother hand, if the CAS code is present, a film speed Sv is set at step#207 and then, the film speed Sv and the number of Photographable framesof the film are displayed on the display panel 5 at steps #208 and #209.Subsequently, if it is found that the film is loaded into the camerabody at step #210, the mark "PAM" is displayed on the display panel 5 atstep #211. Three frames of the film are required to be fed preliminarilyafter the film has been loaded into the camera body In order to displaythis preliminary feed of the film, the display FSM that the film isbeing preliminarily fed and the display WM that the film is being woundare blinked at step #212. Then, a preliminary winding counter N is setat 0 at step #213 and a preliminary winding timer is set to apreliminary winding time period at step #214. Subsequently, thepreliminary winding timer and preliminary winding of the film arestarted at steps #215 and #216. After waiting for a predetermined timeperiod at step #217, a decision is made as to whether or not preliminarywinding of one frame of the film has been completed at step #218. Whenthe preliminary winding timer has completed its time counting at step#219 although preliminary winding of one frame of the film has not beencompleted, it is considered that preliminary winding of the film is notperformed properly. Therefore, in this case, the program flow returns tothe rewinding routine of FIG. 13. On the other hand, when preliminarywinding of one frame of the film has been completed properly,preliminary winding of the film: is stopped at step #220 and then, oneis added to a count of the preliminary winding counter N at step #221.If the count of the preliminary winding counter N is not 3 at step #222,the program flow returns to the winding operation at step #214 again.When the count of the preliminary winding counter N reaches 3, windingof three frames of the film has been completed and the display FSM thatthe film is being preliminarily fed is cancelled at step #223. Then,after it is reconfirmed that the film is present at step #224, thedisplay that the film is present is turned on at step #225.Subsequently, the frame counter is set at 1 at step #226 and the countof the frame counter is displayed on the display panel 5 at step #227.Subsequently, if it is found that the light measuring switch S1 is inthe off state at step #228, the program flow proceeds to the flashphotography display routine F-14 of FIG. 14.

When the detection switch BCS for detecting opening and closing of theback cover 43 is in the off state at step #201, namely, the routine ofFIG. 15 upon interruption of the input port IT2 started by opening theback cover 43, display of the film speed ISO, the number CAM ofphotographable frames of the film and the mark "PAM" indicating loadingof the film cartridge into the camera body is cancelled at steps #229,#230 and #231. Then, a decision is made as to whether or not winding ofthe film has been completed at step #232. If winding of the film has notbeen completed, winding of the film is commanded at step #233. Windingof the film is continued until winding of the film is completed. Whenwinding of the film has been completed at step #234, winding of the filmis stopped at step #235. Subsequently, the frame counter is reset at 0at step #236 and then, the count of the frame counter is displayed atthe step #227.

FIGS. 16A and 16B a show a processing sequence of signals of the backcover 43 for imprinting various data on the film and displaying them onthe display portion of the back cover 43. Initially, when the imprintsignal IP for interruption from the camera body is inputted to theinterruption terminal ITb, a counter for counting an imprinting timeperiod for imprinting data on the film is reset at step s1 and then, isstarted at step s2. If it is found from the date imprinting mode switch50 that the camera K1 is in the date imprinting mode at step s3, adecision is made as to whether or not the camera K1 is in the pseudofocal length photographing mode at step s4. Also in the case where thecamera K1 is not in the date imprinting mode, a decision is made as towhether or not the camera K1 is in the pseudo focal length photographingmode at step s8. According to the decisions at step s4, the imprintinglight source LP1 or LP2 is turned on at step s5 or s6. In the case ofthe pseudo focal length photographing mode, the light source 38 for atrimming mark TRM is turned on so as to imprint these data on the filmat step s7 or s9. Subsequently, upon completion of imprinting of thedata on the film, namely when the imprint signal IP is set at the LOWlevel at step s10, the counter is stopped at step s11. Then, theimprinting light sources LP1 and LP2 and the light source 38 for thetrimming mark TRM are turned off at step s12.

Subsequently, preparations for imprinting the number of prints arestarted. Initially, the count of the counter is transferred to aregister COR such that preparations for controlling an imprinting timeperiod of the signal indicative of the number of prints are performed atstep s13. Thus, a register PNR for the number of prints is reset at 0 atstep s14 and then, a printing completion flag PSF is reset at 0 at steps16. Thereafter, the mark 49 for indicating that the number of printshas been imprinted on the film is turned off at step s17. Then, if it isfound that the camera K1 is in the date imprinting mode at step s18, acounter K for counting a time period for displaying a print mark 48disposed at a portion in the date display portion 46 of the back cover43 is set at, for example, 3 at step s19 and the print mark 48 isdisplayed for a predetermined time period, for example, three seconds atstep s20. Thereafter, a decision is made as to whether or notinterruption at intervals of one second for displaying dates, time, etc.is performed at step s21. If the interruption does not exist, theinterruption is allowed at step s22 and then, the program flow stops.Meanwhile, if the interruption exists, the program flow proceeds to aninterruption routine F-17 at intervals of one second in FIG. 17.

Hereinbelow, the interruption routine at intervals of one second isdescribed with reference to FIG. 17. After start of the interruption, adecision is made as to whether or not the count of the counter K is 0 atstep s23. If the count of the counter K is 0, the print mark 48 isturned off at step s24. On the other hand, if the count of the counter Kis not 0, one is reduced from the count of the counter K at step s25.Then, calendaring operations are performed at step s26. A date, time,etc. of photographing are displayed on the date display portion 46through increment of one second of year, month, day, hour, minute andsecond at step s27. After the interruption is allowed at step s28, theprogram flow stops.

FIG. 18 shows a processing sequence of imprinting of the number ofprints on the film in the camera K1. When the switch 45 for setting thenumber of prints or the switch 44 for imprinting the number of prints isturned on, an interruption signal is inputted to the port ITa of thesecond processor CPU2 through an AND circuit AN and thus, thisprocessing sequence is started. If it is found that the signal DIS forforbidding imprinting the number of prints on the film is not at the LOWlevel at step s100, namely imprinting of the number of prints isallowed, a decision is made as to whether or not the switch 44 is in theon state at step s101. If the switch 44 is in the on state, a decisionis made as to whether or not the printing completion flag PSF is 1 atstep s102. When the printing completion flag PSF is not 1, the printcompletion flag is set to 1 at step s103 and then, contents of theregister PNR for the number of prints are decoded at step s104 and thelight source LG for imprinting the number of prints on the film isturned on at step s105. Meanwhile, when the contents of the register PNRare 0, the number of prints is one (normal) and the light source LG isnot turned on. Table 1 below shows the number of prints and contents ofthe register PNR.

                  TABLE 1                                                         ______________________________________                                        PNR                   Number of prints                                        ______________________________________                                         ##STR1##                                                                                      ##STR2##                                                                            ##STR3##                                               ______________________________________                                    

After a counter for setting an imprinting time period has been reset atstep s106, counting of the counter is started at step s107. Then, if itis found at step s108 that the count of the counter is equal to thecontents of the register COR in which the imprinting time periodcorresponding to the film speed ISO delivered from the camera body waspreliminarily set, the light source LG is turned off and the mark 49 forindicating that the number of prints has been imprinted on the film,which is provided on the back cover 43, is displayed at step s109.Subsequently, a decision is made as to whether or not interruption ofthe counter at intervals of one second exists at step s110. If theinterruption of the counter exists, the program flow proceeds to thecalendaring operations of the interruption routine F-17 at intervals ofone second in FIG. 17 and data such as dates are displayed such that theinterruption of the counter is allowed.

On the other hand, when the switch 44 for imprinting the number ofprints on the film is not in the on state, the switch 45 for setting thenumber of prints is in the on state. Thus, if it is found that theprinting completion flag PSF is 1 at step s111, namely printing has beencompleted, the register PNR for the number of prints is reset to 0 atstep s117 and then, "1" is displayed on the display portion of thenumber of prints of the back lid 43 at step s118 and a decision is madeas to whether or not interruption of the counter exists at step s110.Meanwhile, when the printing completion flag PSF is not 1 at step s111,a decision is made as to whether or not contents of the register PNR forthe number of prints are 8 at step s112, namely the number of prints is0. If the contents of the register PNR are 8, the register PNR is resetto 0 at step s113, namely the number of prints is reset to 1. If thecontents of the register PNR are not 8, one is added to the contents ofthe register PNR at step s114 and then, the number of printscorresponding to the contents of the register PNR is displayed on thedisplay portion 47 for displaying the number of prints at step s115,which is provided on the back cover 43. Thereafter, if it is found thatthe switch 44 is in the on state at step s116, the program flow proceedsto a routine F-18.

FIG. 19 is a time chart explanatory of time possible to imprint thenumber of prints on the film. When the detection switch BCS fordetecting opening and closing of the back cover 43 is in the on state(the back cover 43 is closed), preliminary feeding of the film is in theoff state (preliminary feeding of the film has been completed), thedetection switch FIS for detecting loading of the film into the camerabody is in the on state, the light measuring switch S1 and the releaseswitch S2 are in the off state and film winding and film rewinding arein the off state, the signal DIS for forbidding imprinting of the numberof prints on the film is at the HIGH level and thus, imprinting of thenumber of prints on the film is allowed. When the second frame of thefilm is disposed at the image plane, it becomes possible to imprint thenumber of prints outside the picture frame of the first frame of thefilm. If the film consists of 24 frames, the DX code assumes 24. In thiscase, when the 25-th frame is dispose at the image plane, the number ofprints can be imprinted outside the picture frame of the 24-th frame ofthe film. However, after start of photographing of the 25-th frame ofthe film, imprinting of the number of prints on the film cannot beperformed. Since imprinting of the number of prints on one frame of thefilm is performed after completion of winding of the previous frame ofthe film, it is impossible to imprint the number of prints on the lastframe of the film when winding of the film is not completed due to thefact that the film is wound to its distal end prior to completion ofwinding of the last frame of the film. It is possible to imprint thenumber of prints on the photographable frames of the film, whichphotographable frames of the film are guaranteed in number by the film.

FIG. 20 shows a printer for printing the film photographed by the cameraof the present invention. It is to be noted that the printer .can beapplied to the film photographed not only by the camera K1 but also bycameras K2 and K3 according to second and third embodiments of thepresent invention to be described later. In the printer, a negative film100 delivered from a negative film feeding portion 101 is wound by anegative film winding portion 102. A light source portion 110constituted by a lamp, a condenser lens, a diffusing plate and a mixingbox is disposed at a central portion between the negative film feedingportion 101 and the negative film winding portion 102. The light sourceportion 110 is provided with color filters 109. Below the lower face ofthe negative film 100 provided are a detector 103 for detecting a frameedge of the film, a code reader 104, printing zoom lens 105, lightmeasuring and color measuring zoom lens 106, a light measuring and colormeasuring sensor 107 and a color separation filter 108 attached to thefront face of the light measuring and color measuring sensor 107.Furthermore, a photographic printing paper feeding portion 111 and aphotographic printing paper winding portion 112 are provided below theprinting zoom lens 105. A photographic printing paper 114 is fed fromthe photographic printing paper feeding portion 111 so as to be wound bythe photographic printing paper winding portion 112. Meanwhile, ashutter 113 is provided forwardly of the printing zoom lenses 105 andadjacent to the upper face of the photographic printing paper 114.

Then, operations of the printer of FIG. 20 is described. When thenegative film 100 is advanced to a printing position, the detector 103detects the frame edge of the negative film 100 so as to stop thenegative film 100. Then, the code reader 104 reads codes of the trimmingmark and the number of prints, which are provided on the negative film100. According to whether or not the pseudo focal length photographingmode is set, the light measuring and color measuring lenses 106 and theprinting zoom lenses 105 are adjusted. In the case where the pseudofocal length photographing mode is set and is not set, a trimmingposition of the film and a whole image plane of the film are,respectively, subjected to light measurement and color measurement bythe light measuring and color measuring sensor 107 having the colorseparation filter 108 attached thereto such that selection andadjustment of the color filters 109 of the light source portion 110 areperformed. Subsequently, the shutter 113 is opened so as to expose thephotographic printing paper 114. After exposure of the photographicprinting paper 114, the shutter 113 is closed such that the subsequentprinting operation is performed.

FIG. 21 shows a control unit employed in the printer of FIG. 20. Thecontrol unit includes a processor CPU3. The processor CPU3 controlsoperations of constituent elements of the printer of FIG. 20, calculatesthe light measurement value and performs exposure control of thephotographic printing paper 114. In the processor CPU3, processed aresuch signals as a photographic printing paper feeding signal 121delivered from the photographic printing paper feeding portion 111 andthe photographic printing paper winding portion 112, a negative filmfeeding signal 122 given by the negative film feeding portion 101 andthe negative film winding portion 102, a detection signal 123transmitted from the detector 103, light measurement and colormeasurement values 124 given by the light measuring and color measuringsensor 107, a code signal 125 indicating the trimming mark and thenumber of prints, which is delivered from the code reader 104, apositional detection and control signal 126 given by the light measuringand color measuring zoom lens 106 and the printing zoom lens 105, asignal 127 indicating opening and closing of the shutter 113, a controlsignal 128 of the color filters 109 of the light source portion 110, nexposure control signal 129 of the light source portion 110 and a signal130 indicating start and completion of printing.

FIGS. 22A and 22B show a processing sequence of signals associated withprinting of the photographic printing paper 114 in the processor CPU3.Initially, an initial value is set at step st1 and then, feeding of thenegative film 100 is commanded at step st2. Then, if the frame edge isdetected at step st3, feeding of the negative film 100 is stopped atstep st4. Subsequently, data of the trimming mark and the number ofprints are read so as to be set in the register PNR at step st5. If thenumber of prints is 0 at step st6, the program flow returns to feedingof the negative film 100 of step st2 without performing printingoperations. A decision is made as to whether or not the trimming mark ispresent at step st7. If the pseudo focal length photographing mode isset and the trimming mark is present, a decision is made as to whetheror not a flag TRF indicating the previous trimming of the film is 1 atstep st8. If the flag TRF is 1, namely the pseudo focal lengthphotographing mode is set, light measurement and color measurement ofthe negative film 100 are immediately started at step st14. On the otherhand, if the flag TRF is not 1, the flag TRF is set to 1 at step st9 andthe lenses are displaced to the trimming position at step st10.Meanwhile, also when the pseudo focal length photographing mode is notset, the program flow proceeds similarly at steps st11 and st12 but inthis case, the lenses are displaced to an ordinary position at stepst13.

Thereafter, the negative film 100 is measured at step st14. Furthermore,color balance is calculated at step st15 and then, an exposure timeperiod is calculated at step st16. A necessary one of the color filters109 is selectively set in the light source portion 110 at step st17.Subsequently, the light source portion 110 is turned off at step at18and then, the shutter 113 is opened at step st18 so as to expose thephotographic printing paper 114 by turning on the light source portion110 at step st21. The above described exposure time period calculatedbeforehand is measured by a counter at step st22. Upon lapse of apredetermined time period, the light source portion 110 is turned off atstep st23 and one sheet of the photographic printing paper 114 isdelivered at step st24. Then, one is reduced from the contents of theregister PNR for the number of prints until the contents of the registerPNR reach 0 at steps st25 and st26. When the contents of the registerPNR have reached 0 at step st26, printing of a required number of sheetsof the photographic printing paper 114 has been completed. Thus, theshutter 113 is closed at step st27 and the color filters 109 are resetat step st28. Furthermore, if a negative film to be printed exists atstep st29, printing operations are continued at step st31. When printingof the photographic printing paper 114 has been completed, printingoperations are stopped at step st30.

The camera K2 according to the second embodiment of the presentinvention is described with reference to FIGS. 23 to 28. As shown inFIG. 23, the camera K2 includes a camera body 201, a lens barrel 202having an objective lens, a shutter release button 203, a trimming lever204, a liquid crystal display unit 205, a flash device 206, a viewfinderwindow 207, distance measuring windows 208 and 209 and a light receivingwindow 210 for an automatic exposure control portion (AE), whichcorrespond to the camera body 1, the objective lens 2, the shutterrelease button 3, the trimming lever 4, the liquid crystal display panel5, the flash light emitting panel 6, the viewfinder window 7, thedistance measuring windows 8 and 9 and the light receiving window 10 forthe automatic exposure control portion (AE) of the camera K1 of FIG. 1,respectively. Reference numeral 211 denotes a natural lighting windowfor displaying a frame indicative of a photographing zone in field ofview in the viewfinder. In the camera K1 of FIG. 1, the trimming lever 4is so provided on the camera body 1 as to be slid in the sidewisedirection of the camera body 1. However, in the camera K2, the trimminglever 204 is so provided as to be rotated along the lens barrel 202about the optical axis of the objective lens. When the trimming lever204 is disposed at an upper position as shown in FIG. 23, the camera K2is in the earlier said wide angle (standard) state (real focal lengthphotographing mode) in which trimming of the film is not performed inthe printing operation. FIGS. 24 and 25 are a front elevational view anda top plan view of the camera K2 in the wide angle state (real focallength photographing mode), respectively.

On the other hand, when the trimming lever 204 is displaced downwardlyfrom the upper position of the wide angle state (real focal lengthphotographing mode) of FIG. 23 to a lower position as shown in FIG. 26,the camera K2 is set in a telephoto state (pseudo focal lengthphotographing mode) in which trimming of the film is performed in theprinting operation. As will be seen from comparison between FIGS. 23 and26, when the camera K2 is in the telephoto state by setting the trimminglever 204 to the lower position, a hood 212 is projected out of the lensbarrel 202 in the direction of the optical axis of the lens barrel 202.The hood 212 is movably supported by the lens barrel 202 so as to bedisplaced in the optical axis of the lens barrel 202 in response torotation of the trimming lever 204. By this arrangement of the cameraK2, a user of the camera K2 can easily determine from externalappearance of the camera K2 whether the camera K2 is set to the wideangle state or the telephoto state, thereby resulting in reduction oferroneous operations of the camera K2 by the user. Meanwhile, it is soarranged that display of the liquid crystal display unit 205 fordisplaying that the camera K2 is in one of the real focal lengthphotographing mode and the pseudo focal length photographing mode ischanged over by a switch (not shown) changed over in response todisplacement of the trimming lever 204.

Then, a mechanism for displacing the hood 212 in response to rotation ofthe trimming lever 204 is described. FIGS. 27A to 27C include frontelevational views and side elevational views of a peripheral portion ofthe lens barrel 202 of the camera K2. FIG. 27A shows the real focallength photographing mode in which the trimming lever 204 is disposed atthe upper position. FIG. 27C shows the pseudo focal length photographingmode in which the trimming lever 204 is disposed at the lower position.FIG. 27B shows a transitional state between the real focal lengthphotographing mode and the pseudo focal length photographing mode. Asshown in the side elevational views of FIGS. 27A to 27C, the hood 212 issupported by a pair of guides 212a and 212b disposed symmetrically withrespect to the optical axis so as to be displaced only in the directionof the optical axis. A cam groove 212c is formed at a rear end of thehood 212. Meanwhile, a pin 204a engageable with the cam groove 212c isdriven into the trimming lever 204. Hence, when the trimming lever 204is displaced downwardly from the real focal length photographing mode inwhich the trimming lever 204 is disposed at the upper position of FIG.27A, the pin 204a depresses the cam groove 212c so as to thrust the hood212 forwardly in the optical axis such that the hood 212 is projectedout of the lens barrel 202 as shown in FIGS. 27B and 27C.

Then, an arrangement in the lens barrel 202 is described. FIG. 28 showsthe lens barrel 202 and the camera body 201 in the pseudo focal lengthphotographing mode. In FIG. 28, reference numeral 213 denotes anobjective lens system and reference numeral 214 denotes a film plane. Inthe real focal length photographing mode, a zone corresponding to aframe A is printed through its enlargement. Meanwhile, in the pseudofocal length photographing mode, a zone B narrower than the frame A isprinted through its enlargement. Reference numeral 215 denotes a lensbarrel cover for holding the objective lens system 213 integrally andfor shielding light of a side face and a front face of the objectivelens system 213. The lens barrel cover 215 is constituted by a side facecover 215a for shielding undesirable light directed to the side face ofthe objective lens system 213 and a front face cover 215b for shieldingundesirable light directed to the front face of the objective lenssystem 213 and is secured to the camera body 201. The hood 212 issupported by the lens barrel cover 215 so as to be displaced in thedirection of the optical axis. The above described light receivingwindow 210 for the AE is formed in the hood 212. A light guide 216 isattached to the light receiving window 210. A distal end of the lightguide 216 is formed spherically or aspherically having a convexprojected forwardly so as to have a positive refracting power. A photodetector 217 for light measurement is fixed to the other end of thelight guide 216. Therefore, the light guide 216 and the photo detector217 are also displaced in the direction of the optical axis in responseto displacement of the hood 212 in the direction of the optical axis.Reference numeral 218 denotes an inner wall of a light shielding barrelfor shielding undesirable light proceeding to the film in the camerabody 101.

By the above described arrangement, in the case of the real focal lengthphotographing mode in which trimming of the film is not performed at thetime of printing of the film, the hood 212 is disposed at the retractedposition shown by the dotted lines in FIG. 28, such a phenomenon doesnot take place that an image forming light bundle 219 proceeding towardsone end of the frame A is intercepted by the hood 212. On the otherhand, in the case of the pseudo focal length photographing mode in whichtrimming of the film is performed at the time of printing of the film,the hood 212 is projected to the position shown by the solid lines inFIG. 28 but such a phenomenon does not occur that an image forming lightbundle 220 proceeding to the zone B on the film plane 214 to be printedis intercepted by the hood 212. However, at this time, light bundlesproceeding towards a range between the zone B and the frame A arepartially or wholly intercepted by the hood 212 but this fact offers noproblem since the range is unnecessary at the time of printing of thefilm. Rather, since flare light rays 221, which are incident upon theobjective lens system 213 from outside a zone to be photographed at thetime when the hood 212 is not projected and which are diffused by theinner wall 218 of the light shielding barrel so as to proceed within theframe A, are intercepted by the hood 212, it becomes possible to raisecontrast of the print at the time of trimming of the film and improveimage quality of the print at the time of trimming of the film. Inaddition to the above described flare light rays 221, flare light raysdetrimental to photography in the pseudo focal length photographing modeinclude light rays reflected on a peripheral face of the lens or aninner face of a lens frame.

FIG. 29 shows the camera K3 according to the third embodiment of thepresent invention. In the camera K3, light shielding plates forshielding the above described flare light rays in the pseudo focallength photographing mode are provided. Namely, the camera K3 includes apair of light shielding plates 222 and 223 disposed symmetrically withrespect to the optical axis. The light shielding plates 222 and 223 are,respectively, rotatably supported by rotary shafts 224 and 225 mountedon the camera body 201. The light shielding plate 222 includes a longfirst arm 222a engageable with a rear end of the hood 212 and a shortsecond arm 222b projectable into the optical path of the flare lightrays. Likewise, the light shielding plate 223 includes a long first arm223a engageable with the rear end of the hood 212 and a short second arm223b projectable into the optical path of the flare light rays. Thefirst arm 222a and the second arm 222b of the light shielding plate 222are integrally formed with each other at a predetermined angle to eachother. Similarly, the first arm 223a and the second arm 223b of thelight shielding plate 223 are integrally formed with each other at apredetermined angle to each other. Furthermore, the light shieldingplates 222 and 223 are, respectively, urged towards the hood 212 bysprings 226 and 227. In the case of the pseudo focal lengthphotographing mode of FIG. 29, the light shielding plate 222 is rotatedin the counterclockwise direction in FIG. 29 by the spring 226 such thatthe first arm 222a is brought into contact with a stopper 228, with thesecond arm 222b being projected into the optical path of the flare lightrays 221. At this time, the light shielding plate 223 is rotated in theclockwise direction in FIG. 29 by the spring 227 such that the first arm223a is brought into contact with a stopper 229, with the second arm223b being projected into the optical path of the flare light rays 221.Thus, in the pseudo focal length photographing mode, the flare lightrays 221 and a portion or a whole of the image forming light bundle 219in the real focal length photographing mode are shielded by the secondarms 222b and 223b of the light shielding plates 222 and 223.Accordingly, in the camera K3, since these light ray are not required tobe shielded by the hood 212, an inside diameter of the hood 212 of thecamera K3 is made larger than that of the camera K2. In the camera K3,it is also possible to improve image quality of the print at the time oftrimming of the film by shielding undesirable light bundles in thepseudo focal length photographing mode. In the case where the camera K3is in the real focal length photographing mode in which the hood 212 isretracted to the position shown by the dotted lines in FIG. 29, thelight shielding plates 222 and 223 are, respectively, rotated in theclockwise direction and the counterclockwise direction in FIG. 29 by therear end of the hood 212 and thus, the second arms 222b and 223b do notintercept the image forming light bundle 219.

In the above described embodiments of the present invention, the twodata imprinting portions for imprinting data such as date on the filmare, respectively, provided on the trimmed image plane and the untrimmedimage plane so as to be selectively operated. However, it can be also soarranged that one data imprinting portion is provided so as to bedisplaced to predetermined positions in accordance with thephotographing mode.

Furthermore, it can be also so arranged that trimming magnifications arechanged in a plurality of steps. In this case, a plurality of dataimprinting portions corresponding to the trimming magnifications,respectively can be provided such that one of the data imprintingportions, corresponding to a desired one of the trimming magnificationsis selected. Alternatively, one data imprinting portion can also beprovided so as to be displaced to predetermined positions correspondingto the trimming magnifications, respectively.

Meanwhile, the data imprinting portions are provided in the abovedescribed embodiments of the present invention. However, it can be alsoso arranged that the data imprinting portions are provided on the camerabody.

As is clear from the foregoing description, in the camera of the presentinvention in which the trimming of the film can be performedautomatically at the time of printing by designating trimming at thetime of photographing an object, data such as date can be displayed atan optimum position on the print in accordance with the photographingmode.

Accordingly, in accordance with the present invention, since such adisadvantage associated with the prior art cameras enabling imprintingof data such as date on the film is obviated that valuable data such asdate of photographing the object are lost from the print due to printingof the film through its trimming, pseudo focal length photography can beperformed with much ease.

Furthermore, in accordance with the present invention, since thetrimming data imprinting portion is also provided on the back coverprovided with the date data imprinting portions, it is only necessary toincorporate into the camera body a mechanism for transmitting a minimumamount of trimming data to the back cover, thus resulting in drop ofmanufacturing cost of the camera body of the camera of the presentinvention. Meanwhile, since the signal processing units of the prior artdata imprinting portions, etc. can be utilized for the back cover of thecamera of the present invention, only a small number of mechanisms arerequired to be added to the back cover of the camera of the presentinvention, thereby resulting in reduction of manufacturing cost of theback cover of the camera of the present invention. Since the user of thecamera can record trimming data on the film by designating trimming atthe time of photographing the object, it becomes possible to print thefilm through automatic detection of presence and absence of trimming ofthe film at the time of simultaneous developing and printing of thefilm, so that such a troublesome procedure associated with the prior artcameras is eliminated that the trimming zone of the film is designatedagain after check of the print.

Moreover, the camera of the present invention enabling pseudo focallength photography comprises the mode selecting means for selectivelychanging over the camera to the real focal length photographing mode forprinting the ordinary photographic zone and the pseudo focal lengthphotographing mode for printing the zone narrower than the ordinaryphotographic zone, the light measuring means for measuring thebrightness of the object to be photographed and the changeover means forchanging over the light measuring zone of the light measuring means tothe zone narrower than the light measuring zone of the real focal lengthphotographing mode. Thus, in accordance with the present invention,since the light measuring zone of the light measuring means can bechanged over according to the angles of view of the respectivephotographing modes, it becomes possible to obtain the properly exposedprint in both photographing modes.

In addition, in accordance with the present invention, since not onlythe functions but the external appearance of the camera is changed uponchangeover of the photographing modes in the camera, the user of thecamera can readily recognize at a glance which one of the photographingmodes the camera is set to, thereby resulting in prevention of erroneousoperations of the camera.

Furthermore, in the camera of the present invention, since light raysincident upon the zone outside the remaining image plane zone aftertrimming are intercepted by the optical path restricting members such asthe lens hood, the light shielding plate, etc. when the object isphotographed in the pseudo focal length photographing mode, flare lightproduced by reflection of light on the inner face of the light shieldingbarrel or the inner face of the lens barrel can be reduced drastically.Therefore, in accordance with the present invention, contrast and imagequality of the print photographed in the pseudo focal lengthphotographing mode can be improved.

Although the present invention has been fully described by way ofexample with reference to the accompanying drawings, it is to be notedhere that various changes and modifications will be apparent to thoseskilled in the art. Therefore, unless otherwise such changes andmodification depart from the scope of the present invention, they shouldbe construed as being included therein.

What is claimed is:
 1. A photographic camera system comprising:a modesetting means for selectively setting said photographic camera system toa real focal length photographing mode for printing an ordinaryphotographic zone and a pseudo focal length photographing mode forprinting a zone narrower than the ordinary photographic zone; arecording means for recording a signal corresponding to the pseudo focallength photographing mode when the pseudo focal length photographingmode is selected; a data imprinting means for selectively imprintingdata such as a date at one of a plurality of different positions on aphotographing portion of the film; and a selector means for selectingsaid one of the plurality of different positions in according with thesettings of the real focal length photographing mode and the pseudofocal length photographing mode.
 2. A photographic camera system asclaimed in claim 1, wherein said recording means and said dataimprinting means are provided on a back cover of said photographiccamera system.
 3. A photographic camera system as claimed in claim 1,wherein said data imprinting means comprises:a first data imprintingmeans which is selected by said selector means when said photographiccamera system has been set to the real focal length photographing mode;and a second data imprinting means which is selected by said selectormeans when said photographic camera system has been set to the pseudofocal length photographing mode; said second data imprinting meansimprinting on the film characters smaller than characters imprinted bysaid first data imprinting means.
 4. A photographic camera system asclaimed in claim 3, wherein the characters of said second dataimprinting means are smaller than the characters of said first dataimprinting means in accordance with a ratio of the real focal length tothe pseudo focal length.
 5. A photographic camera system comprising:amode setting means for selectively setting said photographic camerasystem to a first mode for printing an ordinary photographic zone and asecond mode for printing a zone which constitutes a part of saidordinary photographic zone; a recording means for recording a signalcorresponding to the second mode when the second mode is selected; adata imprinting means for selectively imprinting data such as a date atone of a plurality of different positions on a photographing portion ofthe film; and a selector means for selecting said one of the pluralityof different positions in accordance with the setting of the first modeand the second mode.
 6. A photographic camera system as claimed in claim5, wherein said recording means and said data imprinting means areprovided on a back cover of said photographic camera system.
 7. Aphotographic camera system as claimed in claim 5, wherein said dataimprinting means comprises:a first data imprinting means which isselected by said selector means when said photographic camera system hasbeen set to the first mode; and a second data imprinting means which isselected by said selector means when said photographic camera system hasbeen set to the second mode; said second data imprinting meansimprinting on the film characters smaller than characters imprinted bysaid first data imprinting means.
 8. A photographic camera systemcomprising:a mode setting means for selectively setting saidphotographic camera system to a first mode for printing an ordinaryphotographic zone and a second mode for printing a zone which isdifferent from said ordinary photographic zone; a recording means forrecording a signal corresponding to the second mode when the second modeis selected; a data imprinting means for selectively imprinting datasuch as a date at one of a plurality of different positions on aphotographing portion of the film; and a selector means for selectingsaid one of the plurality of different positions in accordance with thesetting of the first mode and the second mode.
 9. A photographic camerasystem as claimed in claim 8, wherein said recording means and said dataimprinting means are provided on a back cover of said photographiccamera system.
 10. A photographic camera system as claimed in claim 8,wherein said data imprinting means comprises:a first data imprintingmeans which is selected by said selector means when said photographiccamera system has been set to the first mode; and a second dataimprinting means which is selected by said selector means when saidphotographic camera system has been set to the second mode; said firstdata imprinting means and said second data imprinting means imprintingon the film characters with respective sizes different from each other.11. A photographic camera system comprising:a mode setting means forselectively setting said photographic camera system to a first mode forprinting an ordinary photographic zone and a second mode for printing asecond zone which constitutes a part of said ordinary photographic zone;a first imprinting means for imprinting a data at a first position on aphotographing portion of a film when the first mode is set; and a secondimprinting means for imprinting a data at a second position which isdifferent from said first position on the photographing portion of thefilm here the second mode is set.
 12. The photographic camera system ofclaim 11, further comprising a recording means for recording, when saidsecond mode is set, a signal which indicates that said second zone is tobe printed.
 13. A photographic camera system comprising:a mode settingmeans for selectively setting said photographic camera system to a firstmode for printing an ordinary photographic zone and a second mode forprinting a second zone which is different from said ordinaryphotographic zone; a first imprinting means for imprinting a data at afirst position on a photographing portion of a film when the first modeis set; and a second imprinting means for imprinting a data at a secondposition which is different from said first position on thephotographing portion of the film when the second mode is set.
 14. Thephotographic camera system of claim 13, further comprising a recordingmeans for recording, when said second mode is set, a signal whichindicates that said second zone is to be printed.
 15. A photographiccamera system comprising:a mode setting means for selectively settingsaid photographic camera system to a first mode for printing an ordinaryphotographic zone and a second mode for printing a second zone whichconstitutes a part of said ordinary photographic zone; a firstimprinting means for imprinting a data on a film when the first mode isset; and a second imprinting means for imprinting, when the second modeis set, on the film a data which is different in size from the dataimprinted by said first imprinting means.
 16. The photographic camerasystem of claim 15, further comprising a recording means for recording,when said second mode is set, a signal which indicates that said secondzone is to be printed.
 17. A photographic camera system comprising:amode setting means for selectively setting said photographic camerasystem to a first mode for printing an ordinary photographic zone and asecond mode for printing a second zone which is different from saidordinary photographic zone; a first imprinting means for imprinting adata on a film when the first mode is set; and a second imprinting meansfor imprinting on the film a data which is different in size from thedata imprinted by said first imprinting means.
 18. The photographiccamera system of claim 17, further comprising a recording means forrecording, when said second mode is set, a signal which indicates thatsaid second zone is to be printed.
 19. A photographic camera systemcomprising:a mode setting means for selectively setting saidphotographic camera system to a first mode for printing an ordinaryphotographic zone and a second mode for printing a zone whichconstitutes a part of said ordinary photographic zone; a data imprintingmeans for selectively imprinting data such as a date at one of aplurality of different positions on a photographing portion of th film;and a selector means for selecting said one of the plurality ofdifferent positions in accordance with the setting of the first mode andthe second mode.
 20. A photographic camera system as claimed in claim19, wherein said recording means and said data imprinting means areprovided on a back cover of said photographic camera system
 21. Aphotographic camera system as claimed in claim 19, wherein said dataimprinting means comprises:a first data imprinting means which isselected by said selector means when said photographic camera system hasbeen set to the first mode; and a second data imprinting means which isselected by said selector means when said photographic camera system hasbeen set to the second mode; said second data imprinting meansimprinting on the film characters smaller than characters imprinted bysaid first data imprinting means.
 22. A photographic camera systemcomprising:a mode setting means for selectively setting saidphotographic camera system to a first mode for printing an ordinaryphotographic zone and a second mode for printing a zone which isdifferent from said ordinary photographic zone; a data imprinting meansfor selectively imprinting data such as a date at one of a plurality ofdifferent positions on a photographing portion of the film; and aselector means for selecting said one of the plurality of differentpositions in accordance with the setting of the first mode and thesecond mode.
 23. A photographic camera system as claimed in claim 22,wherein said recording means and said data imprinting means are providedon a back cover of said photographic camera system.
 24. A photographiccamera system as claimed in claim 22, wherein said data imprinting meanscomprises:a first data imprinting means which is selected by saidselector means when said photographic camera system has been set to thefirst mode; and a second data imprinting means which is selected by saidselector means when said photographic camera system has been set to thesecond mode; said first data imprinting means and said second dataimprinting means imprinting on the film characters with respective sizesdifferent from each other.